Dump trailer

ABSTRACT

A dump trailer comprising a U-shaped trailer body having a bottom wall and opposing side walls. The trailer includes a curved front wall and a pivotable tailgate. The front wall is U-shaped when viewed from the top and angles upwardly and forwardly from the bottom wall. A support structure provided adjacent the front wall operatively engages hitch and lift assemblies. The support structure includes spaced-apart supports secured to the front wall; and spaced-apart horizontal beams secured to the supports. The beams extend through apertures in the front wall and into the compartment. This enables the trailer body to be lowered relative to the ground, thus lowering the center of gravity of the trailer. A wheel assembly mounts to the rear end of the trailer via a mounting plate curved complementary to the bottom wall. Cut-outs in the plate reduce the overall weight of the trailer.

CROSS REFERENCE TO RELATED APPLICATION

This application is a divisional of U.S. patent application Ser. No. 13/954,512, filed Jul. 30, 2013; the entire disclosure of which is incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Technical Field

This invention is directed to trucks. More particularly, this invention is directed to dump trucks that include a tractor and trailer. Specifically, the invention is related to an improved dump trailer that has an arcuate front end, is constructed so that the center of gravity of the truck is kept as low to the ground as possible; and includes a reduced weight rear mounting plate which reduces the overall weight of the trailer so that it is capable of carrying loads of commensurate increased weight.

2. Background Information

Some of the issues in the trucking industry are how to fabricate trucks and trailers in such a manner that they are more economical to run and are able to operate in as safe a fashion as possible. This is particularly of interest in the dump truck field as traditional dump trailers are box-shaped and therefore present a front wall that resists airflow. This resistance tends to create increased drag on the trailer during operation and therefore requires additional energy to be expended to move the vehicle down the road. The increase in required energy drives the cost of operation upward because of the need for additional fuel to power the tractor.

Still further, trailer bodies are utilized to carry different types and sizes of loads. The load may shift within the bed during travel and this may affect the center of gravity of the vehicle, making it slightly unstable. This center of gravity issue is also problematic during dumping as the higher the center of gravity of the trailer, the more care that has to be expended during dumping of the load to prevent the trailer from tipping over as the load slides down the bed.

There is therefore a need in the art for an improved dump trailer and a truck incorporating the same that addresses some or all of these issues.

SUMMARY

A dump trailer comprising a U-shaped trailer body having a bottom wall and opposing side walls is disclosed. The trailer includes a curved front wall and a pivotable tailgate. The front wall is U-shaped when viewed from the top and angles upwardly and forwardly away from the bottom wall. The curvature of the trailer body and the front wall makes the trailer more aerodynamic and thus reduces drag as the trailer moves. This in turn results in lower fuel consumption for the tractor pulling the trailer.

A support structure provided adjacent the front wall operatively engages hitch and lift assemblies. The support structure includes spaced-apart supports secured to the front wall; and spaced-apart horizontal beams secured proximate the bottom of the supports. The beams extend through apertures in the front wall and into the compartment. The placement of these beams within the interior of the compartment enables the hitch assembly to be positioned closer to the trailer body's bottom wall and thus enables the entire trailer body to be lowered relative to the ground. The lowering of the position of the trailer body results in a lower center of gravity for the vehicle, thereby making it both more aerodynamic and stable. A wheel assembly mounts to the rear end of the trailer via a mounting plate. The mounting plate is curved in a manner complementary to the bottom wall of the trailer. Cut-outs in the plate reduce the overall weight of the trailer and this translates to a reduction in the overall weight of the truck. The reduction in truck weight means that the weight of the load that may be carried in the trailer can be increased in proportion to the reduction in weight of the mounting plate.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

A sample embodiment of the invention, illustrative of the best mode in which Applicant contemplates applying the principles, is set forth in the following description, is shown in the drawings and is particularly and distinctly pointed out and set forth in the appended claims.

FIG. 1 is a side view of a dump truck showing the improved dump trailer;

FIG. 2 is an enlarged left side view of the front end of the dump trailer;

FIG. 3 is a top view of the front end of the dump trailer shown in FIG. 3;

FIG. 4 is a rear view of the front end of the dump trailer taken along line 4-4 of FIG. 3;

FIG. 5 is a front plan view of the front end of the dump trailer shown in FIG. 3;

FIG. 6 is a rear view of the front end of the dump trailer taken along line 6-6 of FIG. 3;

FIG. 7 is left side view of the front end of the dump trailer taken along line 7-7 of FIG. 6 with the lift assembly removed for the sake of clarity;

FIG. 8 is a top view of the back end of the dump trailer showing the mounting plate that secures the wheel assembly to the trailer drawn in phantom;

FIG. 9 is a perspective view of the mounting plate removed from the dump trailer to show the cut-out regions therein.

Similar numbers refer to similar parts throughout the drawings.

DETAILED DESCRIPTION

Referring to FIGS. 1-9, there is shown a truck 10 having a tractor 12 and including a trailer 14 in accordance with the present invention. Truck 10 preferably is a dump truck. Tractor 12 includes a cab 12 a that is disposed on a frame 12 b. A portion of the frame 12 b extends rearwardly from cab 12 a. Several sets of wheels 16 are mounted on frame 12 b. A slip-plate 18 is mounted on an upper surface of the portion of frame 12 b that extends rearwardly from cab 12 a and is configured to engage a hitch assembly, such as hitch assembly 26, on a trailer.

Trailer 14 includes a trailer body 20, a wheel assembly 22, a landing gear assembly 24, a hitch assembly 26 (FIG. 2), and a lift assembly 28. Landing gear assembly 24, hitch assembly 26 and lift assembly 28 may be of any suitable type known in the art.

Trailer body 20 is arcuate in cross-sectional shape and includes a peripheral wall that is U-shaped or semi-circular when viewed from the rear (as shown in FIG. 3). The U-shaped body 20 forms left and right side walls 20 a, 20 b, and a bottom wall 20 c. Left and right side walls 20 a, 20 b and bottom wall 20 c of trailer body 20 are substantially continuous with each other and form the semi-circular shape of trailer body 20. Because of this curved shape of body 20, the body 20 is substantially free of corner regions that may include at least one planar wall. Dump trailer 14 is engaged with tractor 12 such that a front end 14 a of trailer 14 is adjacent cab 12 a and a rear end 14 b of trailer 14 is remote therefrom. Trailer 14 defines a longitudinal axis that extends between front and rear ends 14 a, 14 b and is designated by reference character “Y” in FIG. 3. The U-shaped body 20 allows for a more streamlined airflow over the left and right side walls 20 a, 20 b and under bottom wall 20 c than has been the case in previously known trailer bodies. This more streamlined airflow reduces the drag on the trailer making it more aerodynamic and therefore tractor 12 requires less energy to move trailer 14 over a roadway “G”.

Trailer body 20 further includes a tailgate 30 at the rear end 14 b and a front wall 32 at front end 14 a. Left and right side walls 20 a, 20 b are generally parallel to longitudinal axis “Y”, and tailgate 30 and front wall 32 are generally perpendicular to longitudinal axis “Y”. Left and right side walls 20 a, 20 b and bottom wall 20 c form a peripheral wall that, together with tailgate 30 and front wall 32, bounds and defines an interior compartment 34. Compartment 34 is configured to retain a load (not shown) therein. Preferably, dump trailer 14 is an open-topped dump trailer and the load is introduced into compartment 34 through an opening defined between the top edges 21 a, 21 b (FIG. 2) of left and right side walls 20 a, 20 b, and top ends of tailgate 30 and front wall 32. It will be understood however, that the aerodynamic features and weight reducing features of trailer 14, that will be discussed further herein, may be incorporated into closed-top dump trailers as well.

Wheel assembly 22 is engaged with rear end 14 b of trailer 14. Wheel assembly 22 includes one or more sets of wheels 36, a suspension assembly (not shown), braking system (not shown) and other components well known in the art.

In accordance with one aspect of the invention, dump trailer 14 preferably includes a mounting plate 38 (FIGS. 1, 8 & 9) that is welded or otherwise secured to an exterior surface of bottom wall 20 c of trailer body 20. Mounting plate 38 is arcuate in shape and is complementary in curvature to the curvature of bottom wall 20 c. Previously known trailers have included a system of I-beams that extend from one end of the trailer body to the other to support the wheel assembly. Mounting plate 38 in accordance with the present trailer 10 has an upper surface 38 a, a lower surface 38 b, a left side edge 38 c, a right side edge 38 d, a front edge 38 e and a rear edge 38 f. Mounting plate 38 acts to reinforce and strengthen rear end 14 b of trailer 14 and provide a strong-enough region for wheel assembly 22 to be secured thereto. Fenders 23 are provided on either side of mounting plate 38 to direct water away from wheel assembly 22. Each fender 23 is arcuate in profile when viewed from behind the truck 10 and this not only aids in directing water downwardly toward a roadway “G” (FIG. 1) but also aids to generate less turbulent airflow around the rear end 14 b of trailer 14. As is illustrated in FIG. 8, the leading edge 23 a of each fender 23 is also curved to direct air toward the rear end 14 b of trailer 14 to streamline airflow around the same.

In accordance with one aspect of the trailer 14, mounting plate 38 further defines one or more cut-outs 40 therein. Cut-outs 40 are provided to reduce the overall weight of mounting plate 38. It will be understood that the number and size of cut-outs 40 has to be balanced with the strength requirements for mounting plate 38. The configuration of mounting plate 38 illustrated has resulted in the overall weight of the trailer being reduced by around 600 lbs over previously known trailer designs. This reduction in overall weight has two substantial benefits. Firstly, a lighter weight trailer will require less fuel to be consumed in order to move the trailer 14 over roadway “G”. Reduction in weight is also advantageous because additional load can be carried in trailer 14. The 600 lbs of weight removed from the structure of the trailer 14 itself can be replaced with 600 lbs of load.

In previously known designs, the I-beams and braces used to strengthen the trailer body and support the wheel assembly have run the entire length of the trailer body and are especially present toward the rear end of the trailer body. These I-beams and braces have greatly added to the overall weight of previously known trailers and have therefore required additional fuel to be expended to move the vehicle and have limited the load that can be carried quite substantially. Furthermore, these I-beams and braces have increased the turbulence in the air flowing around the trailer while it is moving as they have extended for a distance beneath the bottom wall of the trailer body. In accordance with an aspect of trailer 14, the positioning and curvature of mounting plate 38 leads to a more laminar airflow around the back end of the truck 10, i.e., more streamlined airflow. The more laminar airflow generated by the curved mounting plate 38 again leads to a reduction in the drag on trailer 14 and therefore to a reduction in the quantity of fuel consumed by truck 10.

As indicated previously, upper surface 38 a of mounting plate 38 in trailer 14 is disposed adjacent the exterior surface of bottom wall 20 c of trailer body 20. It will be understood that instead of positioning mounting plate 38 beneath the exterior surface of bottom wall 20 c, it could be positioned above interior surface thereof. This latter position is somewhat less desirable as it could interfere with dumping of a load from trailer 14 unless some type of shielding is provided but it would likely lead to benefits in airflow about trailer 14 being even more streamlined.

Tailgate 30 is mounted by way of support brackets 31 (FIG. 8) between the rear ends of first and second side walls 20 a, 20 b so as to obstruct an opening (not shown) between the side walls. Support brackets 31 enable tailgate 30 to pivot out of alignment with the back ends of side walls 20 a, 20 b when front end 14 a of trailer 14 is raised by lift assembly 28. This enables a load (not shown) carried in compartment 34 to slide out of compartment 34 through the opening during a dumping operation. When the load has been dumped, front end 14 a of trailer 14 is lowered by lift assembly 28 and tailgate 30 will then pivot back into alignment with the back ends of side walls 20 a, 20 b. A locking assembly (not shown) is typically provided to keep tailgate 30 in a closed position when not actively used for dumping. It will be understood tailgate 30 may be mounted to pivot around either of a horizontal axis or a vertical axis.

In accordance with yet another feature of the trailer 14, a pair of first rails 42, 44 is provided on trailer body 20 and these rails extend from a bottom end of front wall 32 to tailgate 30. First rails 42, 44 are disposed on either side of the bottom wall region 20 c and a short distance upwardly along each of the respective left and right side walls 20 a, 20 b (see FIG. 2). First rail 42 is generally L-shaped in cross-section and includes a vertical first leg 42 a and a horizontal second leg 42 b. Second rail 44 is also generally L-shaped in cross section and includes a vertical first leg 44 a and a horizontal second leg 44 b. First rails 42, 44 preferably are welded to the exterior surface of body 20 at the ends of each of the first and second legs thereof. It will be understood that first rails 42, 44 may be secured by other means to trailer body 20, such as by fasteners. First rails 42, 44 aid in strengthening and supporting trailer body 20. It should be noted, with reference to FIG. 8, that mounting plate 38 extends across the region of bottom wall 20 c between first rail 42 and first rail 44. If desirable, mounting plate 38 may be welded or otherwise secured to first rails 42, 44, although this is not illustrated herein. Welding first rails 42, 44 to mounting plate further adds strength to rear end 14 b of trailer 14.

A set of second rails 46, 48 (FIG. 4) is provided proximate a top end of trailer body 20 and these second rails extend from proximate front wall 32 to proximate tailgate 30. Second rails 46, 48 provide strength and rigidity to the upper regions of each of the first and second side walls 20 a, 20 b, respectively. Preferably, each second beam 46, 48 is welded to an interior surface of trailer body 20. It will be understood, however, that first and second beams may be secured to trailer body 20 by other means, such as by fasteners.

Each of the second rails 46, 48 is generally rectangular in cross-section. Second rail 46 includes an upper surface 46, a lower surface 46 b, a first side surface 46 c and a second side surface 46 d. Similarly, second rail 48 includes an upper surface 48 a, a lower surface 48 b, a first side surface 48 c, and a second side surface 48 d. Second rails 46, 48 are horizontally aligned with each other and extend generally parallel to longitudinal axis “Y” of trailer body 20. Second rail 46 is positioned adjacent an interior surface of first side wall 20 a such that upper surface 46 a is substantially horizontally aligned with upper edge 21 a of first side wall 20 a. Similarly, second rail 48 is positioned adjacent an interior surface of second side wall 20 b such that upper surface 48 a is substantially horizontally aligned with upper edge 21 b of second side wall 20 b. Thus, upper edge 21 a and upper surface 46 a constitute the upper end of first side wall 20 a and upper edge 21 b and upper surface 48 a constitute the upper end of second side wall 20 b. The positioning of the second rails 46, 48 is therefore essentially inside compartment 34. This is yet another feature of trailer 14 that enables a more laminar airflow to occur, thereby reducing drag and lowering fuel consumption of the truck 10. In previously known dump trailers it has been common to have strengthening beams or rails welded to the exterior surface of the trailer front and side walls and to the tailgate as well.

As shown in FIG. 1 a first mounting plate 50 is welded or otherwise secured to a region of first rail 42 approximately mid-way between front end 14 a and rear end 14 b of trailer 14. First mounting plate 50 extends downwardly from first rail 42 for a distance beneath bottom wall 20 c of trailer body 20. Similarly, although not shown herein, a second mounting plate is welded or otherwise secured to first rail 44 in a location laterally aligned with first mounting plate 50. A pivot pin 52 extends between the two mounting plates and an arm assembly 54 is pivotally engaged with pin 52. Arm assembly 54 includes a first arm 54 a and a second arm 54 b (FIG. 4) that engage and support landing gear assembly 24 a distance forwardly of the mounting plates. Landing gear assembly 24 may be any suitable known type of landing gear and is configured to operate in a known manner.

The front ends of each of the first and second arms 54 a, 54 b remote from pivot pin 52 is engaged with hitch assembly 26 and lifting assembly 28 via a pivot rod 56, as is shown in FIGS. 2 & 5. Hitch assembly 26 will be described later herein. Lifting assembly 28 is any suitable known type of lifting assembly that includes a piston 58 and cylinder 60. The lifting assembly 28 may be pneumatic or hydraulic in operation but is typically hydraulic.

In accordance with an aspect of the dump trailer 10, front wall 32 is curved and is generally U-shaped (FIG. 3) when viewed from above. Front wall 32 includes a generally flattened central region 32 a and curved first and second regions 32 b, 32 c. Central region 32 a is disposed substantially at right angles to longitudinal axis “Y” of dump trailer 10 and the side regions 32 b, 32 c curve rearwardly away from central region 32 a. In accordance with an aspect of dump trailer 10, central region 32 a angles upwardly and forwardly from bottom wall 20 c of trailer body 20 at an angle α. Angle α is an angle other than 90° and preferably is in the range of from about 50° up to about 75°. More particularly, angle α is about 60°. Thus, the top edge 32 d of front wall 32 is spaced a greater distance from tailgate 30 than is the bottom edge (not numbered) of front wall 32.

Curved first region 32 b of front wall 32 extends outwardly and laterally from the central region 32 a in a first direction and subsequently curves through about 90 degrees. At least an upper portion 32 b′ thereof (FIGS. 2 & 3) becomes substantially aligned with first side wall 20 a and is secured thereto, preferably by welding. Curved second region 32 c extends outwardly and laterally from the central region 32 a in a second direction and subsequently curves through about 90 degrees (i.e., opposite the curvature of first region 32 b); and at least an upper portion 32 c′ thereof becomes substantially aligned with second side wall 20 b and is secured thereto. Each of the curved first and second regions 32 b, 32 c has a radius of curvature “R” (FIG. 3) of from about 18 inches up to about 22 inches.

Front wall 32 is welded to body 20 along curved edge 20 d of body 20. Preferably, first and second side regions 32 b, 32 c of front wall 32 are welded to curved edge 20 d of first and second side walls 20 a, 20 b in such a way that the weld itself does not extend much beyond the exterior surfaces of front wall 32 and side walls 20 a, 20 b. The lower the profile of the weld, the better the airflow over front wall 32 and side walls 20 a, 20 b. The curvature of front wall 32 is such that as truck 10 travels over the roadways the airflow is caused to be as laminar as possible. Substantially all of the welds on trailer 14 are made in the same fashion so that the do not tend to project for much of a distance outwardly beyond the exterior surface of trailer 14. This assists in creating an improved airflow around trailer 14 Additionally, the curvature of front end 20 d of each side wall 20 a, 20 b toward the rear end 14 b of trailer 14 is positioned and configured to direct airflow toward rear end 14 b of trailer 14 and thereby disturb airflow as little as possible and possibly even guide airflow in a particular fashion.

Dump trailer 14 also includes a supporting structure for hitch assembly 26 and lift assembly 28. This supporting structure includes but is not limited to, a pair of supports 64, 66 (FIGS. 2, 5 and 6) and a pair of beams 70, 72. Supports 64, 66 extend generally vertically along the exterior surface of central region 32 a of front wall 32 and provide strength and rigidity thereto. Each beam 70, 72 is secured to a bottom end of one of the supports 64, 66 and extends substantially horizontally into compartment 34 as will be described hereafter. Hitch assembly 26 and lift assembly 28 are operatively engaged with beams 70, 72.

Each support 64, 66 is generally tubular and is substantially rectangular in cross-section, with four walls (not numbered) bounding and defining a central bore (not shown). Preferably, the outside corners (not numbered) of support 64, 66 are rounded to enable as laminar an airflow as possible over the same. Supports 64, 66 are each open at a top end 64 a, 66 a (FIG. 5) and at a bottom end 64 b, 66 b. Because front wall 32 angles upwardly and forwardly away from bottom wall 20 c, top ends 64 a, 66 a of beams 64, 66 are spaced a greater distance from tailgate 30 than are the bottom ends 64 b, 66 b thereof.

Preferably, piston 58 and cylinder 60 of lifting assembly 28 are positioned between the interior surfaces of supports 64, 66 as is shown in FIG. 5. A flap 62 is engaged with supports 64, 66 via a hinge 61 that extends between interior surfaces of supports 64 and 66. Flap 62 hangs downwardly to cover the upper end of piston 58 and cylinder 60 in order to protect the same and to stop debris and the like from entering cylinder 60. Flap 62 may be pivoted outwardly away from front wall 32 to gain access to piston 58 for maintenance purposes.

A cover plate 68 is engaged with front wall 32 and extends downwardly from a top region thereof to extend across the open upper ends 64 a, 66 a of supports 64, 66. Cover plate 68 prevents air from flowing into and through the bores of supports 64, 66 and also prevents debris and water from entering the same. Cover plate 68 is narrower at a front end 68 a and wider at a rear end 68 b. Additionally, side edges 68 c, 68 d flare outwardly away from front end 68 a toward rear end 68 b. This configuration aids in directly airflow toward and over a top end of trailer 14. It will be understood that two individual cover plates may alternatively be provided in the place of plate 68. Each individual plate would be smaller than plate 68 and cover one of the upper ends 64 a, 66 a.

In accordance with yet another aspect of dump trailer 14, a pair of horizontal beams 70, 72 (FIGS. 2, 6, and 7) are provided adjacent bottom ends 64 b, 66 b of supports 64, 66, respectively. Bottom ends 64 b, 66 b of supports 64, 66 preferably are welded to portions of beams 70, 72, respectively. Beams 70, 72 thus strengthen and support front end 14 a of trailer 14 so that it is able to withstand the forces generate during lifting and lowering of front end 14 a by way of lifting assembly 28.

In accordance with a further aspect of trailer 14, part of each of the beams 70, 72 is disposed outside of compartment 34 of trailer 14 and part of each of the beams 70, 72 is disposed inside of compartment 34. In previously known dump trailers, all support beams for the front end of the trailer and for the trailer hitch assembly have been disposed outside of the trailer compartment and have been positioned beneath the bottom wall of the trailer body. In trailer 14, on the other hand, the beams 70, 72 are positioned partially, substantially or entirely above bottom wall 20 c of trailer 14. Thus, hitch assembly 26 is able to be mounted closer proximity to the underside of bottom wall 20 c than was possible in previously known dump trailers. This effectively increases the clearance between the roadway “G” and bottom wall 20 c. Because of this increased clearance, the body 20 of trailer 14 is able to be effectively moved downward, closer to roadway “G. In particular, this reconfiguration of the support structure enables trailer body 20 to be lowered a distance of from about 5 inches up to about 8 inches closer to roadway “G” when compared with previously known dump trailers. Thus, bottom wall 20 c is positioned at a lower height “H” relative to roadway “G” than was previously possible. This lowering in the height of trailer body 20 results trailer 14 having a lower center of gravity than previously known dump trailers and is thus more stable. Furthermore, reducing the distance between bottom wall 20 c and roadway “G” also causes air to flow differently around, over and below trailer 14. Specifically, reducing the relative height “H” between bottom wall 20 c and roadway “G” tends to generate fewer eddies and turbulence in the airflow. Thus, the drag on the trailer 14 is substantially reduced. Because the drag is reduced, less power is required to drive truck 10 forwardly over roadway “G”, and thus, the amount of gasoline required to operate truck 10 is greatly reduced.

FIG. 6 shows that beam 70 includes a top wall 70 a, a bottom wall 70 b, a first side wall 70 c, a second side wall 70 d. A portion 70 c′ of the first side wall 70 c extends for a distance beyond bottom wall 70 b as does a portion 70 d′ of the second side wall 70 d. The portion 70 c′ of the first side wall 70 c is longer than the portion 70 d′ of the second side wall 70 d. Similarly, beam 72 includes a top wall 72 a, a bottom wall 72 b, a first side wall 72 c, and a second side wall 72 d. A portion 72 c′ of the first side wall 72 c extends for a distance beyond bottom wall 72 d as does a portion 72 d′ of the second side wall 72 d, and the portion 72 c′ of the first side wall 72 c is longer than the portion 72 d′ of the second side wall 72 d. Beam 70 defines an interior bore 70 e and beam 72 defines an interior bore 72 e. Thus, beams 70, 72 are each tubular and hollow and have a generally rectangular cross sectional shape when viewed from the front end.

Referring to FIG. 7, beam 72 has a first end 72 f and a second end 72 g and both ends are open. A buttress 74 is disposed on the upper surface of top wall 72 a of beam 72 proximate first end 72 f and extends upwardly to strengthen support 66. Buttress 74 includes a plate-like flange 74 a that extends downwardly from a front face of buttress 74 in front of first end 72 f of beam 72. Flange 74 a closes off access to bore 72 e of beam 72 and thereby prevents air from flowing through bore 72 e. A substantially identical buttress is provided on beam 70 to underpin support 64, and a flange blocks off access to the bore 70 e of beam 70.

First end 72 f of beam 72 is generally rectangular in cross-sectional shape and is disposed outside of the front wall 32 of trailer 10. Beam 72 extends for a distance from flange 74 a to where beam 72 enters through an aperture 35 (FIG. 6) defined between front wall 32 and second side wall 20 b of trailer body 20. The portion of beam 72 that is disposed outside of trailer body 20 is identified by the reference character “A” in FIG. 7. The rest of beam 72 is disposed within the interior compartment 34 of trailer body 20 and is identified by the reference character “B” in FIG. 7. The region “B” includes an angled first region “B1” where the top wall 72 a of beam 72 is absent and a top edge of each of the first and second side walls 72 c, 72 d angle downwardly toward bottom wall 72 b and rearwardly toward second end 72 g. The region “B” further includes a generally horizontal second region “B2” where the top edge of the first and second side walls 72 c, 72 d is disposed generally parallel to bottom wall 72 b. Region “B” further includes an angled third region “B3” where the top edge of first and second side walls 72 c, 72 d angles downwardly and rearwardly to meet bottom wall 72 b.

Beam 70 is similarly configured to beam 72 and a first portion thereof is disposed outside of the front wall 32 and a second portion thereof is disposed inside of compartment 34, entering through an aperture 33 (FIG. 6) that is spaced apart from aperture 35 in front wall 32. Because each of beams 70, 72 is a hollow member, having bores 70 e, 72 e therein, an angled plate 76 is provided to close off access to bores 70 e, 72 e at the second ends of beams 70, 72 that are disposed inside compartment 34. (This stops any of the material of a load carried in compartment 34 from entering bores 70 e, 72 e. Plate 76 is configured to simultaneously block access to both bores 70 e, 72 e at the same time. (It will be understood however, that two smaller plates could alternatively be utilized to separately block access to the bore of each of the two beams.) Plate 76 includes a plurality of angled surfaces 76 a, 76 b, 76 c, 76 d (FIGS. 3 & 6) that are angled complementary to a portion of the interior of front wall 32, and the angled regions “B1”, “B2”, and “B3”, respectively. Plate 76 also includes opposed side flaps 76 e, 76 f (FIG. 3) that extend downwardly from surfaces 76 a and 76 b to ensure water and debris cannot enter bores 70 e and 72 e of beams 70, 72. The angled surfaces are also provided to ensure that any load carried in compartment 34 slides easily off cover plate 76 when trailer body 20 is tipped to dump a load carried therein.

Beams 70, 72 do not run the entire length of trailer 14 from front end 14 a to rear end 14 b. Instead, beams 70, 72 terminate a short distance away from front end 14 a. Preferably, beams 70, 72 are in the order of two to three feet in overall length. The members of the support structure provided adjacent front wall 32 are preferably welded to each other but they may, alternatively, be secured by other suitable means, such as by way of fasteners.

It should also be noted that the front end 14 a of trailer 14 is provided with several reinforcing plates that strengthen and support various regions of the structure. All of these reinforcing plates are identified in the figures by the reference character 78. It will be understood that there may be fewer or additional reinforcing plates included in trailer 14 from what is illustrated in the attached figures. Furthermore, any of the reinforcing plates 78 may be differently configured from what is illustrated herein.

In accordance with another aspect of the invention, a shield 80 is provided at front end 14 a of trailer 14. As shown in FIGS. 3-5, shield 80 is an arcuate plate that has a front 80 a, a rear 80 b, and sides 80 c, 80 d. Shield 80 is welded to upper edge 32 d of wall 32 so that there are substantially no gaps between them through which air will flow. FIG. 4 shows that shield 80 is convex in shape when viewed from the rear and edges 80 c, 80 d are disposed a short distance “D1” outwardly beyond an exterior surface of each of curved regions 32 b, 32 c. “D1” is approximately 2 inches long. Shield 80 also extends for a distance “D2” (FIG. 2) above edges 21 a, 21 b of first and second side walls 20 a, 20 b of trailer body 20. “D2” is approximately 8 inches long. The shield's configuration and placement helps direct airflow over the top edge of dump trailer 14 in such a fashion that it is more laminar than would be the case if shield 80 was not provided. This, once again, reduces drag on trailer 14 as it moves over roadway “G”. The more laminar airflow is also helpful in reducing the likelihood that small particles of load material will become entrained in the air flowing over the open-topped trailer 14 and damage vehicles traveling behind trailer 14.

The support structure further includes a generally U-shaped foot 82 (FIG. 2) that extends outwardly and downwardly from bottom wall 70 b of beam 70. FIG. 7 shows that a substantially identical U-shaped foot 84 extends outwardly and downwardly from a bottom wall 72 b of beam 72. Feet 82 and 84 are laterally aligned with each other and spaced a lateral distance apart. Foot 84 includes a U-shaped curved surface 84 a (FIG. 7). Foot 82 includes a substantially identical curved surface (not numbered) that is laterally aligned with surface 84 a. Feet 82, 84 are welded to their associated beams 70, 72 and therefore move in unison therewith. When dump trailer 14 is raised by way of cylinder 60 to dump a load therefrom, beams 70, 72 and their associated feet 82, 84 move upwardly away from hitch assembly 26. When dump trailer 14 is lowered by way of cylinder 60, beams 70, 72 and their associated feet 82, 84 move back toward hitch assembly 26 and become operatively engaged therewith.

Hitch assembly 26 includes a hitch plate 86, hitch pin 88, the pivot rod 56, a pair of spaced apart seat members 90, 92, a pair of reinforcing caps 94, 96, and a pair of alignment plates 98, 100. (Other components may form part of hitch assembly 26 but only these listed components are illustrated in the attached figures. As shown in FIG. 6, hitch plate 86 includes at least a first section 86 a that is disposed substantially horizontally. Seat members 90, 92 are welded to first section 86 a of hitch plate 86 a distance apart from each other and extend upwardly away therefrom. Seat members 90, 92 are laterally aligned with each other. Alignment plates 98, 199 are also welded to first section 86 a of hitch plate 86 and extend upwardly therefrom. Arms 54 a, 54 b extend forwardly from landing gear 24 and through apertures 94 a and 96 a in the respective reinforcing caps 94, 96. Pivot rod 56 extends through aligned holes (not shown) through reinforcing cap 94, arm 54 a, seat 90, plate 98, plate 100, seat 92, cap 96, and arm 54 b. End caps 56 a, 56 b are provided on pivot rod 56 to keep it engaged with the other components of hitch assembly 26. Hitch pin 88 extends downwardly from first section 86 a of hitch plate 86 and is available for engagement with slip plate 18 of tractor 12 as is known in the art.

FIG. 7 shows that seat 92 includes a convexly shaped exterior surface 92 a that is complementary in curvature and size to concavely-shaped surface 84 a of foot 84. It should be noted that seat 90 also includes a similar convexly shaped exterior surface that is complementary to the curvature and size of the U-shaped surface on foot 82. When trailer bed 14 is in is lowered position (shown in FIG. 1), foot 84 of the support structure is operatively engaged with seat 92 of hitch assembly 26 as shown in FIG. 7; and foot 82 is operatively engaged with seat 90 as shown in FIG. 2. The weight of the front end 14 a of trailer 14 keeps the feet 82, 84 engaged with seats 90, 92. Although not illustrated herein, it will be understood that hitch assembly 26 may, alternatively, include some type of locking mechanism for retaining the engagement between feet 82, 84 and seats 90, 92. Plates 98, 100 help to ensure that the associated feet 82, 84 and seats 90, 92 are correctly aligned for proper engagement when trailer bed 14 is being lowered. FIG. 5 shows that lift assembly 28 is also operatively engaged with hitch assembly 26. Specifically, lower end 60 a of cylinder 60 is operatively engaged with pivot rod 56.

Dump truck 10 is used to move loads in substantially the same manner as previously known dump trucks. The aerodynamic design of truck 10 in the provision of the curved front wall 32, unitary U-shaped and curved trailer body 20, along with the lowered center of gravity by virtue of the inclusion of at least some of the support structure for hinge assembly 26 being raised relative to the bottom wall 20 c of trailer body 20 and inserted at least partially into the interior compartment 34 of trailer body 20, all contribute to truck 10 being more fuel efficient. In addition to these features, the inclusion of a supporting structure for wheel assembly 22 that comprises a lighter-weight, more aerodynamic mounting plate 38 instead of heavier I-beams that increase drag, also contributes to the improved fuel efficiency of truck 10. Furthermore, the reduction in overall weight of dump truck 10 because of the inclusion of mounting plate 38 makes it possible for the truck 10 to carry additional load, thus improving the trucking company's bottom line.

It will be understood that the hitch assembly 26, lift assembly 28, and landing gear 24 are used in any manner already known in the art.

In the foregoing description, certain terms have been used for brevity, clearness, and understanding. No unnecessary limitations are to be implied therefrom beyond the requirement of the prior art because such terms are used for descriptive purposes and are intended to be broadly construed.

Moreover, the description and illustration of the preferred embodiment of the invention are an example and the invention is not limited to the exact details shown or described. 

1. A dump trailer comprising: a trailer body having a bottom wall and two opposing side walls that are disposed substantially parallel to a longitudinal axis extending between a front end and a rear end of the trailer body; a front wall extending between the two side walls at the front end of the trailer body; a tailgate pivotally mounted to a rear wall or one or both of the side walls at the rear end of the trailer body; a compartment defined and bounded by the front wall, side walls, tailgate and bottom wall, said compartment being adapted to carry a load therein; a support structure disposed adjacent the front wall; and wherein a portion of the support structure extends for a distance into the compartment; and a hitch assembly operatively engaged with the support structure.
 2. The dump trailer as defined in claim 1, wherein the dump trailer has a center of gravity; and wherein extending the portion of the support structure for the distance into the compartment lowers the center of gravity of the dump trailer.
 3. The dump trailer as defined in claim 1, wherein the bottom wall is positioned beneath the portion of the support structure and is lower relative to a road surface over which the dump trailer travels than would be the case if the support structure did not extend into the compartment.
 4. The dump trailer as defined in claim 1, wherein the portion of the support structure that extends into the compartment is disposed at least partially above the bottom wall of the trailer body.
 5. The dump trailer as defined in claim 1, wherein the portion of the support structure is disposed entirely above the bottom wall of the trailer body.
 6. The dump trailer as defined in claim 1, wherein the portion of the support structure that extends into the compartment comprises: a pair of spaced-apart beams; and a pair of spaced-apart apertures defined in the front wall and wherein each beam passes through one of the apertures and is positioned such that a first section of each beam extends forwardly from an exterior surface of the front wall, and a second section of each beam extends rearwardly from an interior surface of the front wall.
 7. The dump trailer as defined in claim 6, further comprising a face plate that covers at least one of the second sections of the beams disposed within the compartment.
 8. The dump trailer as defined in claim 6, wherein the support structure further comprises a pair of spaced-apart supports, each support engaged with and extending upwardly from one of the beams; and wherein the supports are secured to the exterior surface of the front wall.
 9. The dump trailer as defined in claim 8, wherein a top end of each of the supports is spaced a greater distance from the tailgate than is a bottom end of each support.
 10. The dump trailer as defined in claim 8, wherein a central region of the front wall and both of the supports are inclined at an angle other than 90 degrees relative to the bottom wall of the trailer body.
 11. The dump trailer as defined in claim 8, wherein the trailer further includes a lift assembly and a hitch assembly; and the lift assembly includes a hydraulic or pneumatic cylinder; and wherein the cylinder is disposed between the supports; and wherein an end of the cylinder is operatively engaged with the hitch assembly.
 12. The dump trailer as defined in claim 6, wherein the pair of beams are horizontally oriented and the hitch assembly is operatively engaged with the pair of beams and extends downwardly therefrom.
 13. The dump trailer as defined in claim 12, wherein the support structure includes a pair of feet, each foot extending downwardly from one of the beams, said feet being seated on a complementary shaped seat provided on the hitch assembly when the trailer body is in a lowered position; and said feet being spaced a distance from the associated seat when the trailer body is in a raised position to dump a load from the compartment.
 14. The dump trailer as defined in claim 1, wherein the portion of the support structure that extends into the compartment comprises: a pair of spaced-apart beams; and a pair of spaced-apart apertures defined partially in a region of the front wall and partially in a region of one or both of the side walls; and wherein each beam passes through one of the apertures and is positioned such that a first section of each beam extends forwardly from an exterior surface of the front wall, and a second section of each beam extends rearwardly from an interior surface of the front wall.
 15. A dump trailer comprising: a trailer body having a bottom wall and two opposing side walls that are disposed substantially parallel to a longitudinal axis extending between a front end and a rear end of the trailer body; a front wall extending between the two side walls at the front end of the trailer body; a pivotable tailgate provided at the rear end of the trailer body; a compartment defined and bounded by the trailer body and adapted to carry a load therein; and a mounting plate disposed adjacent the bottom wall proximate the rear end of the trailer; wherein the mounting plate is adapted to engage a wheel assembly; and wherein the bottom wall of the trailer body is arcuate when viewed from a rear end of the trailer; and the mounting plate has a curvature that is complementary to the arcuate bottom wall.
 16. The dump trailer as defined in claim 15, further comprising one or more cut-out regions defined in the mounting plate to reduce the dump trailer's weight.
 17. The dump trailer as defined in claim 15, wherein the trailer body is U-shaped when viewed from the rear end of the trailer and the trailer body is free of corners between the bottom wall and each of the side walls.
 18. The dump trailer as defined in claim 15, wherein the front wall is arcuate when viewed from a lateral side of the trailer body and includes a peripheral edge that connects to each of the two side walls and the bottom wall; and an are bounded and defined by the peripheral edge and extending between the two side walls; and wherein the area is curved.
 19. The dump trailer as defined in claim 15, further comprising: a support structure disposed adjacent the front wall; and a hitch assembly operatively engaged with the support structure.
 20. The dump trailer as defined in claim 19, wherein at least a portion of the support structure extends for a distance into the compartment and the bottom wall is lowered relative to a road surface along which the dump trailer travels. 